王 磊，生物医学工程博士、博士后，中国科学院大学博士生导师。1991年-2000年在西安交通大学学习，2000年-2008年在格拉斯哥大学和伦敦帝国理工大学工作。2008年全职加入中国科学院深圳先进技术研究院工作至今，现任生物医学与健康工程研究所党总支部书记、副所长，医疗机器人与微创手术器械研究中心主任；中共先进院纪委委员，先进院（深理工）学术委员会委员、学位委员会委员、职代会工会委员、生物医学工程学科组副组长；兼任国家先进制造业集群高性能医疗器械共性技术服务平台负责人、国家高性能医疗器械创新中心双聘研究员、中科院“健康信息学”重点实验室副主任、广东省“基层医疗设备集成”工程技术研究中心主任，深圳市“低成本健康”重点实验室和“生物医疗电子与健康信息”公共技术服务平台负责人，苏州中科先进技术研究院有限公司董事长。

中科院百人计划、二级研究员，享受国务院政府特殊津贴。国家重点研发计划“主动健康和老龄化科技应对”重点专项专家，人口健康领域国家中长期科技发展规划分领域专家。中国生物医学工程学会理事，中国科协全国首席科学传播专家。主要研究人体传感器网络，围绕医用可穿戴、手术机器人的先进AI方法与微系统展开创新，在生物医学工程转化研究与学科建设方面有丰富工作经验。

目前主持研究国自然重点支持项目“穿戴式精确定位介入手术机器人的力觉感知与导丝操控机理（U1713219）”和国家重点研发计划智能机器人重点专项课题“适用于多器械协同操控的精准力觉感知与技能学习（2019YFB1311702）”、作为联合单位负责人在研国自然重点项目“智能健康信息服务管理（71531004）”、作为首席科学家在研国防创新特区主题项目X，指导团队成员在研多项国家重点研发专项和国自然重点支持项目。已承担国家973、863课题（三项）、国家03重大专项、国自然重点/重点支持/面上、国防创新特区课题、中科院/广东省/深圳市等十余项重要科研任务，均顺利验收。出版《低成本健康集成技术》等专著和专著章节11部、累计发表学术论文300篇，Google学术引用5400次；SCI期刊论文100余篇，科学引文索引700次。授权发明专利/实用新型/外观/IC版图保护100余项，其中国家发明专利85项、PCT 2项，10项专利已实现权利转移及产业化应用，转化研究工作被CCTV、南方日报等媒体多次重点报道。作为主要创建人，从无到有的建设了国内规模大、实力强的中科院深圳先进院生物医学工程学科，硕士点经六年时间（2011-2017）在第四轮全国学科评估中获评B+。获中共深圳市直机关工委系统优秀党务工作者（2021年）、中国科学院先进基层党组织（2020，党总支书记）、中国创造学会创造成果一等奖（2020年，第二完成人）、广东省技术发明二等奖（2018年，第一完成人）、深圳市技术发明二等奖（2017年，第一完成人）、王宽诚率先人才计划产研人才奖（2017年）、中国产学研合作创新奖（2014年）、吴文俊人工智能科学技术创新奖（2014年）和中国发明专利优秀奖（2013年）。其它兼职：

l 中国生物医学工程学会健康工程分会副主任委员、医用机器人工程与临床分会委员、期刊工作委员会副主任委员、工程教育认证工作委员会委员、科技创新与产业促进工作委员会委员、可穿戴健康信息学组召集人（筹）；

l 中国电子学会生命电子学分会常务委员、健康物联网标准体系工作组成员，中国医学救援协会装备分会常务理事，中国社会福利协会养老服务信息化建设专家委员，中国指挥与控制学会智能可穿戴技术专委会；

l 国家科学技术奖、国家科技计划项目评审专家，国家外专局海外引智评审专家，国家药监局器械审评专家，广东省和深圳市科技计划评审专家，深圳欧美同学会理事；

l 广东省特支计划科技创新领军人才；深圳市政府特殊津贴、鹏城学者特聘教授和深圳高层次领军人才

l 第650次香山科学会议“未病状态测量与辨识的科学问题、前沿技术和核心装备”联合执行主席；

l EMBC, World Congress, BSN, BHI, BioCAS, BHE, ICHI, HIS, Wearable computing等国际学术会议的TPC, Program chairs, Theme chairs, Track chairs及Session chairs

代表性项目：

1、穿戴式通信的信道建模方法与安全机制研究；国家级；国家自然科学基金海峡联合重点项目；2016-01-01；至2019-12-31；U1505251；项目负责人

2、面向社区的健康信息采集关键技术及关键设备系统研发；国家级；国家科技重大专项子课题；2013-01-01至2015-12-31；2013ZX03005013005；项目负责人

3、泛在式生理参数提取方法及其在呼吸反馈中应用的研究；国家级；国家自然科学基金面上项目；2011-01-01至2013-12-31；61072031；项目负责人

4、个人健康信息智能获取技术及系统开发；国家级；国家863；计划；2012-01-01至2015-12-31；2012AA02A604；项目主要研究成员（前三）

5、脑血管实时介入移动式手术机器人系统研发；国家级；国家863；计划；2015-01-01至2017-12-31；2015AA043203；项目主要研究成员（前三）

6、智能健康信息服务管理；国家级；国家自然科学基金重点项目；2016-01-01至2020-12-31；71531004；项目主要研究成员（前三）

7、基于微型传感器的人体运动信息融合理论与方法研究；国家级；国家自然科学基金重点项目；2010-01-01至2013-12-31；60932001；项目主要研究成员（前三）

8、低成本健康技术；省部级；广东省首批引进海外人才创新团队；2010-06-01至2015-06-30；2011；项目主要研究成员（前七）

9、可穿戴动态心电图仪器系统的开发与产业化；省部级；2015-01-01至2016-12-31；项目负责人；1/16

10、三维快速术中X线影像引导系统；省部级；2013-04-01至2015-03-31；项目负责人；1/20

11、穿戴式精确定位介入手术机器人的力觉感知与导丝操控机理；国家级；国家自然科学基金重点支持；2018-01-01至2021-12-31；U1713219；项目负责人

授权发明专利 (http://epub.sipo.gov.cn/):

1. 2011104307509 中国科学院深圳先进技术研究院  实现FFT/IFFT变换的电路及方法
2. 2013104798660 中国科学院深圳先进技术研究院  在失焦视频中提取与跟踪光标点的方法及系统
3. 2012105789965 深圳先进技术研究院  一种多模医学影像手术导航方法及系统
4. 2013106835382 中国科学院深圳先进技术研究院  视频去雨方法
5. 2013101501900 中国科学院深圳先进技术研究院  带隙基准电路
6. 2012105636194 深圳先进技术研究院  超声图像边缘提取方法和装置
7. 2013104246241 深圳先进技术研究院  后天性盲人脑海成像感知外界的系统及方法
8. 2013102824976 中国科学院深圳先进技术研究院  心电图采集平台
9. 2012105896596 深圳先进技术研究院  基于FPGA的室上性心动过速检测方法及系统
10. 2013106834182 深圳先进技术研究院  一种频率可调的超声波发射驱动装置
11. 201210553202X 中国科学院深圳先进技术研究院  电流比较器
12. 2013103197197 中国科学院深圳先进技术研究院  一种无创血压连续检测装置及方法
13. 2012101606630 中国科学院深圳先进技术研究院  ECG去除工频干扰的方法及系统
14. 2012100275683 中国科学院深圳先进技术研究院  降压转换器
15. 2013106165465 中国科学院深圳先进技术研究院  心电数据重采样方法、心电图显示方法和装置
16. 2011104598468 中国科学院深圳先进技术研究院  康复训练机器人中的交互系统
17. 201310188296X 中国科学院深圳先进技术研究院  一种实现C臂系统随动运动的控制装置及控制方法
18. 2010105749403 中国科学院深圳先进技术研究院  胎儿监护装置和方法
19. 2012104170197 深圳先进技术研究院  一种宽带射频标签天线
20. 2011101510262 中国科学院深圳先进技术研究院  陷波器及低通滤波器
21. 2010101989003 中国科学院深圳先进技术研究院  从医学图像中提取身体部位的方法和系统
22. 2011104565854 中国科学院深圳先进技术研究院  康复训练机器人控制系统及控制方法
23. 2011102024755 中国科学院深圳先进技术研究院  超声手术导航系统
24. 2011100712835 中国科学院深圳先进技术研究院  医疗电子芯片设计与验证平台
25. 2011104184087 中国科学院深圳先进技术研究院  踝关节康复训练机器人
26. 2009101885302 深圳先进技术研究院  生理参数收集方法、手机及系统
27. 2009101893830 深圳先进技术研究院  便携式多功能健康笔记本
28. 2008102179487 深圳先进技术研究院  一种人体红外特征成像的方法和系统
29. 2008102416393 深圳先进技术研究院  一种人体红外高光谱成像方法和系统
30. 200810241499X 深圳先进技术研究院; 香港中文大学  实现多种生理信息检测功能的电子耳蜗
31. HEART RATE MEASUREMENT，国际专利，王磊、等，2008，WO2008110788
32. SENSING DEVICE, APPARATUS AND SYSTEM, AND METHOD FOR OPERAT ING THE SAME，国际专利，王磊、等，2004，WO200608508

[1] Toluwanimi Akinyemi, Olatunji Omisore, Wenke Duan, and Lei Wang, Fiber Bragg Grating-Based Force Sensing in Robot-assisted Cardiac Interventions: A Review, IEEE Sensors Journal, 2021

[2] Tobore Igbe, and Lei Wang, An Absolute Magnitude Deviation of HRV for the Prediction of Prediabetes with Combined Artificial Neural Network and Regression Tree Methods, Artificial Intelligence Review, 2021

[3] Olatunji Mumini Omisore, Wenke Duan, Wenjing Du, Yuhong Zheng, Toluwanimi Akinyemi, Yousef Al-Handarish, Wanghongbo Li, Yong Liu, Jing Xiong, and Lei Wang, Automatic tool segmentation and tracking during robotic intravascular catheterization for cardiac interventions, Quantitative Imaging in Medicine and Surgery, 2021

[4] Huihui Li, and Lei Wang, Massage Therapy’s Effectiveness on the decoding EEG rhythms of Left/Right Motor Imagery and Motion Execution in Patients with Skeletal Muscle Pain, IEEE Journal of Translational Engineering in Health and Medicine, 2021

[5] Yongsong Tan, Chaoxia Wang, and Lei Wang, High-performance textile piezoelectric pressure sensor with novel structural hierarchy based on ZnO nanorods array for wearable application, Nano Research, 2021

[6] Yongsong Tan, Kamen Ivanov, Zhanyong Mei, Hui Li, Huihui Li, Ludwig Lubich, Chaoxia Wang, and Lei Wang, A Soft Wearable and Full Textile Piezoresistive Sensor for Plantar Pressure Capturing, Micromachines, 2021

[7] Olatunji Omisore, et al, and Lei Wang, Motion and Trajectory Constraints Control Modeling for Flexible Surgical Robotic Systems, Micromachines, 2020

[8] Towards Adequate Prediction of Prediabetes using Spatiotemporal ECG and EEG Analysis and Weight-Based Multi-Model Approach, Knowledge-Based Systems, 2020

[9] Sodhro Ali Hassan, Andrei Gurtov, Noman Zahid, Sandeep Pirbhulal, Lei Wang, Muhammad Mahboob, Muhammad Ali Imran, Qammer Abbasi, Towards Convergence of AI and IoT for Energy Efficient Communication in Smart Homes, IEEE Internet of Things Journal, 2020

[10] Olatunji Omisore, et al, and Lei Wang, A review on flexible robotic systems for minimally invasive surgery, IEEE Transactions on SMC: Systems, 2020

[11] Wenjing Du, et al, and Lei Wang, Exploration of Interventionists’ Technical Manipulation Skills for Robot-Assisted Intravascular PCI Catheterization, IEEE ACCESS, 2020

[12] Huihui Li, et al, and Lei Wang, The Effectiveness Assessment of Massage Therapy Using Entropy-based EEG Features among Lumbar Disc Herniation Patients Comparing with Healthy Controls, IEEE ACCESS, 2020

[13] Yan Yan, et al, and Lei Wang. Classification of Neurodegenerative Diseases via Topological Motion Analysis - A Comparison Study for Multiple Gait Fluctuations, IEEE ACCESS, 2020

[14] Kamen, and Lei Wang,  Identity recognition by walking outdoors using multimodal sensor insoles, IEEE ACCESS, 2020

[15] Zhanyong Mei, and Lei Wang, Foot type classification using sensor-enabled footwear and 1D-CNN, Measurement, 2020

[16] Yan Yan, et al, and Lei Wang. Gait Rhythm Fluctuations Dynamics Analysis for Neuro-Degenerative Diseases via Persistence Landscape-based Topological Representation, Sensors, 2020

[17] Jinyong Zhang, et al, and Lei Wang, An Area-Efficient and Highly Linear Reconfigurable Continuous-Time Filter for Biomedical Sensor Applications, Sensors, 2020

[18] Nan Guo, et al, and Lei Wang, Asynchronous Event-driven Encoder with Simultaneous Temporal Envelope and Phase Extraction for Cochlear Implants, IEEE Trans. on Biomedical Circuits and Systems, 2020

[19] Yousef Alhandarish, Olatunji Mumini Omisore, Wenke Duan, Jing Chen, Luo Zebang, Toluwanimi Oluwadara Akinyemi, Wenjing Du, Hui Li, and Lei Wang, Facile Fabrication of 3D Porous Sponges Coated with Synergistic Carbon Black/ multiwalled carbon nanotubes For Tactile Sensing Applications, Nanomaterials, 2020

[20] Yousef Al-handarish, Olatunji Mumini Omisore, Tobore Igbe, Shipeng Han, Hui Li, Wenjing Du, Jinjie Zhang, and Lei Wang, A Survey of Tactile Sensing Systems and Applications in Biomedical Engineering, Advances in Materials Science and Engineering, 2020

[21] Yinglei Lin, and Lei Wang, Effects of deep knee flexion on skin pressure profile with lower limb device: A computational study, Textile Research Journal, 2020

[22] Hui Li, et al, and Lei Wang, A Supersensitive, Multidimensional Flexible Strain Gauge Sensor Based on Ag/PDMS for Human Activities Monitoring, Nature Scientific Reports, 2020

[23] Qinwu Gao, Hui Li, and Lei Wang, Microchannel Structural Design For a Room-Temperature Liquid Metal Based Super-stretchable Sensor, Nature Scientific Reports, 2019

[24] Wenrong Yan, Jinhui Li, Guoping Zhang, Derek Ho, and Lei Wang, Synergistic self-assembled 3D PEDOT:PSS/graphene composite sponge for stretchable microsupercapacitors, Journal of Materials Chemistry A, 2020

[25] Tobore Igbe, Jingzhen Li, Abhishek Kandwal, Yuhang Liu, Zedong Nie, and Lei Wang, Statistical and spectral analysis of ECG signal towards achieving non-invasive blood glucose monitoring, BMC Medical Infomatics and Decision Making, 2019

[26] Tobore Igbe, Jingzhen Li, Zedong Nie, and Lei Wang, Deep Learning Interventions for Health Care Challenges: Some Biomedical Domain Considerations, JMIR mHealth and uHealth, 2019, 7(8)

[27] Wenjing Du, and Lei Wang, Recognition of Chronic Low Back Pain during Lumbar Spine Movements Based on Surface Electromyography Signals, IEEE ACCESS, 2018.

[28] Olatunji Omisore, Shipeng Han, Lingxue Ren, Ahmed Elazab, Hui Li, Talaat Abdelhamid, Nureni Azeez, and Lei Wang, Deeply-Learnt Damped Least-Squares Method for Inverse Kinematics of Snake-Like Robots, Neural Networks, 2018.

[29] Olatunji Omisore, Shipeng Han, Lingxue Ren, and Lei Wang, Towards Characterization and Adaptive Compensation of Backlash in a Novel Robotic Catheter System for Cardiovascular Interventions, IEEE Trans. on Biomedical Circuits and Systems, 2018.

[30] Nannan Zhang, and Lei Wang, A Novel Antibacterial Membrane Electrode based on Bacterial Cellulose/Polyaniline/AgNO3 Composite for Bio-Potential Signal Monitoring, IEEE Journal of Translational Engineering in Health and Medicine, 2018.

[31] Qinwu Gao, and Lei Wang, Highly stretchable sensors for wearable biomedical applications, Journal of Materials Science, 2018.

[32] Hui Li, Jing Chen, Jinjie Zhang, Jingyong Zhang, Guoru Zhao, and Lei Wang, Photopatternable Magnetic Hollowbots by Nd-Fe-B Nanocomposite for Potential Targeted Drug Delivery Applications, Micromachines, 2018.

[33] Jing Chen, and Lei Wang, Hui Li, Polydimethylsiloxane (PDMS)-based flexible resistive strain sensors for wearable applications, Applied Sciences,2018, 8(3)

[34] Wenjing Du, and Lei Wang, Co-contraction characteristics of lumbar muscles in patients with lumbar disc herniation during different types of movement, Biomedical Engineering Online, 2018, 17(8)

[35] Olatunji Omisore, Shipeng Han; Nannan Zhang, Lingxue Ren, Kamen Ivanov, Ahmed Elazab, and Lei Wang, Non-iterative geometric approach for inverse kinematics of redundant lead-module in a radiosurgical snake-like robot, Biomedical Engineering Online, 2017, 16(93)

[36] Zhanyong Mei, Kamen Ivanov, Guoru Zhao, Huihui Li, and Lei Wang, An explorative investigation of functional differences in plantar center of pressure of four foot types using sample entropy method, Medical & Biological Engineering & Computing, 2017, 55(4)

[37] Nannan Zhang, and Lei Wang, A novel technique for fetal ECG extraction using one abdominal recording, Sensors, 2017, 17(3)

[38] He Liu, Kamen Ivanov, Yadong Wang, and Lei Wang, Toward a smartphone application for estimation of pulse transit time, Sensors, 2015, 15(10)

[39] He Liu, Kamen Ivanov, Yadong Wang, and Lei Wang, A novel method based on two cameras for accurate estimation of arterial oxygen saturation, Biomedical Engineering Online, 2015,14(52)

[40] Qingsong Zhu, Ling Shao, Xuelong Li, and Lei Wang, Targeting accurate object extraction from an image: a comprehensive study of natural image matting, IEEE Transactions on Neural Networks and Learning Systems, 2015, 26(2)

[41] He Liu, Yadong Wang, and Lei Wang. The Effect of light conditions on photoplethysmographic image acquisition using a commercial camera, IEEE Journal of Translational Engineering in Health and Medicine, 2014,2

[42] Huihui Li, and Lei Wang, Miniature four-band CPW-fed antenna for RFID/WiMAX/WLAN applications, IEEE Antennas and Wireless Propagation Letters, 2014, 13

[43] Zedong Nie, and Lei Wang, An investigation on dynamic human body communication channel characteristics at 45MHz in different surrounding environments, IEEE Antennas and Wireless Propagation Letters, 2014, 13

[44] Q. Zhu, and Lei Wang, Contour-based image registration using bipartite graph matching with Munkres algorithm, Applied Mathematics & Information Sciences, 2014,8(1)

[45] Guanzheng Liu, Lei Wang, and Qing Jiang, A new approach to detect congestive heart failure using short-term heart variability measures, PLOS one, 2014, 9(4)

[46] Dongwen Zhang, and Lei Wang, Dynamic virtual fixture on the Euclidean group for admittance-type manipulator in deforming environments, Biomedical Engineering Online, 2014,13(51)

[47] Dongwen Zhang, and Lei Wang, An optical tracker based robot registration and servoing method for ultrasound guided percutaneous renal access, Biomedical Engineering Online, 2013, 12(47)

[48] Zhanyong Mei, and Lei Wang, Sample entropy characteristics of movement for four foot types based on plantar centre of pressure during stance phase, Biomedical Engineering Online, 2013, 12(101)

[49] Yanwei Guo, and Lei Wang, Balance and knee extensibility evaluation of hemiplegic gait using an inertial body sensor network, Biomedical Engineering Online, 2013, 12(83),

[50] Q. Zhu, and Lei Wang, A novel nonlinear regression approach for efficient and accurate image matting, IEEE Signal Processing Letters, 2013, 20(11)

[51] Q. Zhu, and Lei Wang, Perfect snapping: an accurate and efficient interactive image segmentation algorithm, Applied Mathematics & Information Sciences, 2013, 7(4)

[52] Guanzheng Liu, and Lei Wang, Automatic detection of respiratory rate from electrocardiogram, respiration induced plethysmography and 3D acceleration signals, Journal of Central South University. 2013, 20(9)

[53] Zedong Nie, Jingjing Ma, Zhicheng Li, Hong Chen, and Lei Wang, Dynamic propagation channel characterization and modeling for human body communication, Sensors, 2012, 12(12)

[54] Guoru Zhao, Zhanyong Mei, Ding Liang, Kamen Ivanov, Yanwei Guo, Yongfeng Wang, and Lei Wang, Exploration and implementation of a pre-impact fall recognition method based on an inertial body sensor network, Sensors, 2012, 12(11)

[55] Zedong Nie, Feng Guan, Jin Huang, and Lei Wang, Low power single-chip RF transceiver for human body communication, China Communications, 2012, 9(9)

[56] Zedong Nie, and Lei Wang. In-situ characterizations of 1-200MHz radio-frequency signal coupling with human body, Biomedical engineering: Applications, Basis and Communications, 2012, 24(3)

[57] Haixi Li, Jinyong Zhang, and Lei Wang, 5mHz highpass filter with -80 dB total harmonic distortions, Electronics Letters, 2012, 48(12)

[58] Zhanyong Mei, Guoru Zhao, and Lei Wang, Plantar ROI Characterization during the stance phase of gait based on low-cost pressure acquisition platform, Journal of Bionic Engineering, 2012,9(3)

[59] Yanwei Guo, and Lei Wang. A Low-cost Body Inertial-Sensing Network for Practical Gait Discrimination of Hemiplegia Patients, Telemedicine and e-Health, 2012,18(10)

[60] Guanzheng Liu, Bangyu Huang, and Lei Wang, A wearable respiratory biofeedback system based on generalized body sensor network, Telemedicine and e-Health, 2011, 17(5)